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I'm trying to write code that uses a member typedef of a template argument, but want to supply a default type if the template argument does not have that typedef. A simplified example I've tried is this:

struct DefaultType    { DefaultType()    { printf("Default ");    } };
struct NonDefaultType { NonDefaultType() { printf("NonDefault "); } };

struct A {};
struct B { typedef NonDefaultType Type; };

template<typename T, typename Enable = void> struct Get_Type { 
    typedef DefaultType Type; 
template<typename T> struct Get_Type< T, typename T::Type > {
    typedef typename T::Type  Type; 

int main()
    Get_Type<A>::Type test1;
    Get_Type<B>::Type test2;

I would expect this to print "Default NonDefault", but instead it prints "Default Default". My expectation is that the second line in main() should match the specialized version of Get_Type, because B::Type exists. However, this does not happen.

Can anyone explain what's going on here and how to fix it, or another way to accomplish the same goal?

Thank you.


Georg gave an alternate method, but I'm still curious about why this doesn't work. According the the boost enable_if docs, a way to specialize a template for different types is like so:

template <class T, class Enable = void> 
class A { ... };

template <class T>
class A<T, typename enable_if<is_integral<T> >::type> { ... };

template <class T>
class A<T, typename enable_if<is_float<T> >::type> { ... };

This works because enable_if< true > has type as a typedef, but enable_if< false > does not.

I don't understand how this is different than my version, where instead of using enable_if I'm just using T::Type directly. If T::Type exists wouldn't that be the same as enable_if< true >::type in the above example and cause the specialization to be chosen? And if T::Type doesn't exist, wouldn't that be the same as enable_if< false >::type not existing and causing the default version to be chosen in the above example?

share|improve this question
Uh.. what's the goal? – Brendan Long Jun 9 '10 at 18:10
The goal is that Get_Type<T>::Type will be T::Type if it exists, or DefaultType if it does not exist. – Frank Jun 9 '10 at 18:25
up vote 7 down vote accepted

To answer your addition - your specialization argument passes the member typedef and expects it to yield void as type. There is nothing magic about this - it just uses a default argument. Let's see how it works. If you say Get_Type<Foo>::type, the compiler uses the default argument of Enable, which is void, and the type name becomes Get_Type<Foo, void>::type. Now, the compiler checks whether any partial specialization matches.

Your partial specialization's argument list <T, typename T::Type> is deduced from the original argument list <Foo, void>. This will deduce T to Foo and afterwards substitutes that Foo into the second argument of the specialization, yielding a final result of <Foo, NonDefaultType> for your partial specialization. That doesn't, however, match the original argument list <Foo, void> at all!

You need a way to yield the void type, as in the following:

template<typename T>
struct tovoid { typedef void type; };

template<typename T, typename Enable = void> struct Get_Type { 
    typedef DefaultType Type; 
template<typename T> 
struct Get_Type< T, typename tovoid<typename T::Type>::type > {
    typedef typename T::Type  Type; 

Now this will work like you expect. Using MPL, you can use always instead of tovoid

typename apply< always<void>, typename T::type >::type
share|improve this answer
Thanks Johannes. I didn't realize that the type itself had to be void to match, but that makes perfect sense. – Frank Jun 10 '10 at 12:11

You can do that by utilizing SFINAE:

template<class T> struct has_type {
    template<class U> static char (&test(typename U::Type const*))[1];
    template<class U> static char (&test(...))[2];
    static const bool value = (sizeof(test<T>(0)) == 1);

template<class T, bool has = has_type<T>::value> struct Get_Type {
    typedef DefaultType Type;

template<class T> struct Get_Type<T, true> { 
    typedef typename T::Type Type;
share|improve this answer
Thanks George, that works. I edited my question with another question about why my implementation doesn't work, because it seems like the same principle that enable_if itself is based on. enable_if<true> has a typedef, but enable_if<false> does not. I don't understand why that isn't the same as whether T::Type exists or not. – Frank Jun 9 '10 at 20:50
@Frank: Johannes already answered that nicely in another answer. – Georg Fritzsche Jun 9 '10 at 22:03

First step: stop using "Type" and use the mpl standard "type".


template < typename T >
struct get_type { typedef typename T::Type type; };

template < typename T >
struct calculate_type : boost::mpl::if_
, get_type<T>
, boost::mpl::identity<default_type>
>::type {}

typedef calculate_type<A>::type whatever;

If you used "type" instead of "Type" in your metafunctions you wouldn't require the fetcher "get_type" to convert it and could just return T in that case.

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